ES2265764A1 - Device for producing antivibration mounts - Google Patents

Abstract

The device has an elastic mass (2), with a vibration absorption capacity, placed in a metallic support (1). The elastic mass has ring plates (8) obtained by cutting operations from a continuous board which is formed of a microcellular elastomer material. The metallic support forms a transversal partition (4) extending between two layers of the material, and a metal core (3) forms a radial partition extending between two successive annular sectors.

Description

Device for constitution of supports anti-vibration

Field of the Invention

This invention concerns a device that is intended to enable the constitution of a wide variety of supports that are used for the support of machines or for the suspension of air conditioning, cooling ventilation devices, splitting suspended ceilings and other Applications
Similar.

Prior art

Traditionally, anti vibration mounts known are constituted by a metal structure rigid, or metal support, which has means for anchoring to a floor or ceiling, in conjunction with an elastic mass that is accommodated in this metal support and that has the capacity to vibration absorption; with the particularity that said mass elastic is a block or block of one piece that is obtained by plastic injection or molding procedure.

With this type of constitution the anti-vibration support only absorbs vibrations along its main axis (generally the vertical axis) and its work does not offer different behaviors than those corresponding to the characteristics of the constituent material; so that for each material of certain characteristics always the behavior will be the
same.

Explanation of the invention and advantages

Faced with this state of affairs, the invention that now we are advocating a peculiar constitution for a device that is intended to constitute supports antivibration which, as stated above, are basically constituted by a rigid metal structure, or metal support, which has means for anchoring it to a floor or a roof, in conjunction with an elastic mass that is accommodated in this metal support and that has absorption capacity of vibrations; is that now said elastic mass is consisting of one or more horizontal and / or vertical pieces that They are profiled with the appropriate geometry for each application and are obtained by cutting or die cutting operations from of plates of a microcellular elastomeric material which are of various elastic characteristics and offer a wide range of rigidities, and existing metal partitions that are interspersed between some or all of those that are contiguous of the pieces horizontal and / or vertical.

This proposed conception will enable the tailor made elastic mass configurations of the vibration absorption needs sought in each case of application of the anti-vibration support; in such a way that, different degrees of stiffness are obtained in different directions spatial or progressive stiffness according to the request received. For  which, the elastic mass is made in layers playing with the diversity of qualities of the elastomeric plate Starting microcellular as well as with total freedom to form geometries that can adapt to any support, both for make combinations within a certain form of it as for forms of unusual support than with current injection molding procedures or otherwise require the previous preparation of an expensive mold in which, on the other hand, you can only use the same quality of material and not form layers with different qualities that can give different answers according to the circumstances of work at all times.

Once established that the present invention enables it to be applied to any media geometry, in what follows we will specify some execution modes preferred referring to a cylindrical configuration support in bowl shape. In this case, according to the invention, said horizontal and / or vertical pieces are annular plates of different rigidities that, forming one or more layers, are mounted between a cylindrical wall of this metal support and a hollow metal core which is also cylindrical; Another preferred execution is that horizontal and / or vertical pieces are concentric rings of different rigidities that, forming one or more layers, are successively installed between a cylindrical wall of this support metallic and a hollow metallic core that is also cylindrical; Y another option is that said horizontal and / or vertical pieces are annular sectors of different rigidities that are installed forming one or more layers between a cylindrical wall of a saying metal bowl-shaped support and a hollow metal core That is also cylindrical. With these three types of configuration is possible to make as many combinations as necessary: several layers of the same type of configuration (ring plates, rings concentric, annular sectors) although with different rigidities; one or more layers combining different configurations and / or rigidities, both within the same layer, and in different layers.

According to this, it is clear that this invention will make it possible to build anti-vibration mounts that offer different rigidity in a spatial direction with respect to other; It is also possible to do that, within a given spatial direction, the rigidity varies depending on the intensity of the effort received; it is even possible that the same support anti-vibration offers a different stiffness in one or the other spatial direction At this point we must make special mention of that the present invention makes it possible to absorb vibrations not only in linear spatial directions but also in direction torsora; for this purpose, the invention aims at a particular feature that the metal core forms, by less, a radial partition that extends between two successive said annular sectors; or, that the metal support forms, by less, a radial partition that extends between two successive said annular sectors; or, as a combination is evident of both possibilities; such that when a support constituted with these elements is subjected to torsional stresses, It offers a rigidity that is able to absorb the vibrations due to the latter.

To structure the multilayer composition in the inside the cylindrical cup-shaped support, another particularity of the invention is that the metal core form at least one transverse septum that extends between two layers of microcellular elastomeric material each in shape of annular plates, or concentric rings, or sectors annular, or of any possible combination of several of these elements; in the same way, the metal support forms at least one transversal partition that extends between two layers of material microcellular elastomer each in the form of plates annular, or concentric rings, or annular sectors, or some possible combination of several of these elements; result obvious that both solutions can be combined in one anti-vibration support

The microcellular elastomer used in this invention has the property of being compressible in volume and, therefore therefore, it is able to deform even when embedded in a Closed cavity, which gives it rigidity horizontally and vertically which translates into its ability to absorb vibrations.

On the other hand, the use of plate material which can be punched or cut to water, not only saves the manufacture of an expensive mold, but provides outstanding productivity increases.

Drawings and references

To better understand the nature of the invention, in the attached drawings we represent a preferred form of industrial realization with an illustrative and non-limiting nature.

Figure 1 is a perspective view that illustrates an embodiment of the invention related to a support metallic (1) in the form of a cylindrical bowl, of which removed a quadrant to clearly show the constitution internal

Figures 2 and 3 are similar to Figure 1, but referred to two other modes of execution of the invention.

Figure 4 is a bottom plan view of an execution mode like the one in figure 3.

Figure 5 is an execution variant of the Figure 1 in which the three layers have distance elements each other, as they are two transverse partitions (4,6) of the support metallic (1) and metallic core (3).

Figure 6 is a metal support (1) like the of figure 1, but showing an execution with radial partitions (5, 7) of the metal support (1) and the hollow metal core (3). In this figure 6 the metal support (1) is in an inverted position, as an allusion to its application for hanging suspended ceilings.

Figure 7 is a view showing in perspective a metal bracket (1) in the form of a fork hanging from suspended ceilings that is equipped with the object of the invention.

Figure 8 is an orthogonal projection view which corresponds to section VIII-VIII indicated in figure 6.

In these figures the following are indicated references:

one.-

Metallic support

2.-

Mass elastic

3.-

Hollow metal core

4.-

Support cross partition metallic (1)

5.-

Radial metal support partition (one)

6.-

Metal core transverse partition hollow (3)

7.-

Radial metal core partition hollow (3)

8.-

Annular plate of elastic mass (2)

9.-

Concentric rings of elastic mass (2)

10.-

Annular sectors of elastic mass (2)

eleven.-

Elastic dough fins (2)

Exhibition of a preferred embodiment

Regarding the drawings and references above Listed, various forms of preferred embodiment of the object of the invention, referring to a device for constitution of anti-vibration mounts that are constituted by a rigid metal structure, or support metallic (1), which has means for anchoring it to a floor or a roof, in conjunction with an elastic mass (2) that is accommodated in  this metal support (1) and which has absorption capacity of vibrations

According to the invention said elastic mass (2) has a through central hole and is constituted by one or more horizontal and / or vertical pieces that are profiled with the convenient geometry for each application and are obtained by cutting or die cutting operations from continuous plates of a microcellular elastomeric material which are of various elastic characteristics and offer a wide range of rigidities, and existing metal partitions that are interspersed between some or all of those that are contiguous with the horizontal pieces and / or vertical The plates in continuous are of an elastomeric material microcell that is able to compress its volume even while locked in a closed cavity, which allows a displacement of the mass that results in the possibility of achieve high elasticities, or rigidities, with which in Ultimate vibration absorption is achieved. On the other hand, against the current constitution obtained by molding the dough elastic (2), obtaining geometric shapes by cutting it makes it possible, first of all, to easily adapt to a wider range of anti-vibration mounts configurations and, second and not least, this obtaining can be carried out by water cutting or die cutting, these procedures that allows to achieve greater productivity and do not require the previous preparation of an expensive injection mold or for autoclave.

A preferred embodiment illustrating clearly the invention is the one shown in figure 1 and that it refers to a form of metallic support (1) in the form of cylindrical bowl that is very common for machine supports and engines This mode of execution consists in that said pieces horizontal and / or vertical are annular plates (8) of different rigidities that, forming one or more layers, are mounted between a cylindrical wall of this metal support (1) and a metal core hollow (3) which is also cylindrical; specifically, they are three layers of annular plates each of a different stiffness. Another way of execution is the one illustrated in figure 2, where said horizontal and / or vertical pieces are concentric rings (9) of different rigidities that, forming one or more layers, are successively installed between a cylindrical wall of this support metallic (1) and a hollow metallic core (3) which is also cylindrical; in this case there are two layers, one formed by two of these concentric rings (9), each having different stiffness of them, the other, formed by an annular plate (8) that has a stiffness different from the previous ones. Another preferred mode of execution is illustrated by figure 3, wherein said horizontal and / or vertical pieces are annular sectors (10) of different rigidities that are installed forming one or more layers between a cylindrical wall of said metal support (1) with cup shape and a hollow metal core (3) which is also cylindrical; in this case there are two layers, one, formed from these annular sectors (10) combining different rigidities between yes, the other, formed by an annular plate (8) with a rigidity different from the previous ones; Figure 4 offers an illustrative front view of the layer formed based on these annular sectors (10)

These execution modes are intended to give an idea clear of the wide range of possibilities offered by the invention. Thus, the fact of using layers of annular plates (8) with different rigidities allow that, within the same direction of work, the anti-vibration response is different in the sense of round trip and return; it is also possible that the absorption of vibrations be progressive depending on the intensity received by the elastic mass (2) at each moment. For its part, the use of concentric rings (9) enables behavior specifically intended for the absorption of vibrations produced radially to the metal support (1).

Special mention deserves the mode of execution which is illustrated in figure 1 which refers to the use of annular sectors (10), since it allows the response antivibration is different in several radial directions of the metal support (1) depending on the different rigidities used for said annular sectors (10).

According to another object of the present invention, said metal core (3) forms, at least, a transverse partition (6) that extends between two layers of microcellular elastomeric material each in the form of annular plates (8), or of concentric rings (9), or of annular sectors (10), or of some possible combination of several of these elements. This can be seen in any of figures 1 to 3
and 5.

Similarly, said metal support (1) forms, at least one transverse septum (4) that extends between two layers of microcellular elastomeric material each in shape of annular plates (8), or concentric rings (9), or annular sectors (10), or some possible combination of several of these elements. This solution is illustrated in Figure 5, where a transverse partition (4) of the metal support is combined (1) with a said transverse partition (6) of the metal core (3) to be sandwiched between the three layers of annular plates (8).

Another object of the present invention is that the metal core (3) forms at least one radial partition (7) that is extends between two successive of said annular sectors (10). From similarly, according to the invention, the metal support (1) forms, at least one radial partition (5) that extends between two successive  of said annular sectors (10). These solutions are illustrated. through figure 6 and enable a very important benefit, which is to offer an antivibratory behavior also against to torsoras solicitations, that is, according to a rotary axis.

The invention can also be applied to the classic forks supporting false ceilings. To this in accordance with the invention, the elastic mass (2) of one or several layers is fitted with sliding adjustment between the sides closed the outline of the fork, while open sides of it, the elastic mass (2) is prolonged to form two fins (11) that with sliding adjustment support the vertical edges of said closed sides of the fork. An example is shown in Figures 7 and 8, where the mass elastic (2) is formed in a single layer equivalent to a plate to annul (8), but in a prismatic way that is operatively guided  by means of the central hanging rod of the false ceiling and by said fins (11).

Claims (9)

1. Device for the creation of anti-vibration supports, in particular for anti-vibration supports that are constituted by a rigid metal structure, or metal support (1), which has means for anchoring it to a floor or a ceiling, in conjunction with an elastic mass ( 2) that is accommodated in this metal support (1) and that has vibration absorption capacity, characterized in that said elastic mass (2) has a through central hole and is constituted by one or more horizontal and / or vertical pieces that are profiled With the geometry suitable for each application and are obtained by cutting or punching operations from continuous sheets of a microcellular elastomeric material which are of various elastic characteristics and offer a wide range of stiffnesses, and there are metal partitions that are interspersed between some or all of which are contiguous with the horizontal and / or vertical pieces. 2. Device for the constitution of anti-vibration supports, according to the first claim, characterized in that, with respect to a said metal support (1) having the shape of a cylindrical cup, said horizontal and / or vertical pieces are annular plates (8) of different rigidities that, forming one or more layers, are mounted between a cylindrical wall of this metal support (1) and a hollow metal core (3) that is also cylindrical. 3. Device for constitution of anti-vibration supports, according to the first claim, characterized in that, with respect to a said metal support (1) having the shape of a cylindrical cup, said horizontal and / or vertical pieces are concentric rings (9) of different rigidities that, forming one or more layers, are successively installed between a cylindrical wall of this metal support (1) and a hollow metal core (3) that is also cylindrical. 4. Device for constitution of anti-vibration supports, according to the first claim, characterized in that, with respect to a said metal support (1) having the shape of a cylindrical cup, said horizontal and / or vertical pieces are annular sectors (10) of different rigidities that are installed forming one or more layers between a cylindrical wall of a said metal support (1) shaped like a bowl and a hollow metal core (3) that is also cylindrical. 5. Device for constitution of anti-vibration mounts, according to the second, third and fourth claims, characterized in that the metal core (3) forms at least one transverse partition (6) that extends between two layers of microcellular elastomeric material each one of them in the form of annular plates (8), or concentric rings (9), or annular sectors (10), or some possible combination of several of these elements. 6. Device for constitution of anti-vibration supports, according to the second, third and fourth claims, characterized in that the metal support (1) forms, at least, a transverse partition (4) that extends between two layers of microcellular elastomeric material each one of them in the form of annular plates (8), or concentric rings (9), or annular sectors (10), or some possible combination of several of these elements. 7. Device for constitution of anti-vibration supports, according to the first and fourth claims, characterized in that the metal core (3) forms, at least, a radial partition (7) extending between two successive of said annular sectors (10) . 8. Device for constitution of anti-vibration supports, according to the first and fourth claims, characterized in that the metal support (1) forms at least one radial partition (5) that extends between two successive of said annular sectors (10) . 9. Device for the creation of anti-vibration supports, according to the first claim, characterized in that, with respect to a metal support (1) in the form of a fork, such as those used to support false ceilings, the elastic mass (2) of one or more layers are fitted with sliding adjustment between the closed sides of the fork contour, while, on both open sides of the fork, the elastic mass (2) is extended to form two fins (11) that with sliding adjustment support the vertical edges of said closed sides of the fork.